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US3340868A - Body signal pickup electrode - Google Patents

Body signal pickup electrode
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Publication number
US3340868A
US3340868AUS437477AUS43747765AUS3340868AUS 3340868 AUS3340868 AUS 3340868AUS 437477 AUS437477 AUS 437477AUS 43747765 AUS43747765 AUS 43747765AUS 3340868 AUS3340868 AUS 3340868A
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United States
Prior art keywords
electrode
spacer
capsule
electrolyte
tape
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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US437477A
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Phillip H Darling
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GE Medical Systems Information Technologies Inc
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General Electric Co
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Application filed by General Electric CofiledCriticalGeneral Electric Co
Priority to US437477ApriorityCriticalpatent/US3340868A/en
Priority to GB8217/66Aprioritypatent/GB1118644A/en
Priority to FR52088Aprioritypatent/FR1470698A/en
Application grantedgrantedCritical
Publication of US3340868ApublicationCriticalpatent/US3340868A/en
Assigned to MARQUETTE ELECTRONICS, INC.reassignmentMARQUETTE ELECTRONICS, INC.ASSIGNMENT OF ASSIGNORS INTEREST.Assignors: GENERAL ELECTRIC COMPANY
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Sept. p R G BODY SIGNAL PICKUP ELECTRODE Filed March 5, 1965 INVENTOR. PHILLIP H. DARLING fg/A W ATTORNEY United States Patent Office 3,340,868 Patented Sept. 12, 1967 3,340,868 BODY SIGNAL PICKUP ELECTRODE Phillip H. Darling, Bayside, Wis., assignor to General Electric Company, a corporation of New York Filed Mar. 5, 1965, Ser. No. 437,477 2 Claims. (Cl. 1282.06)
ABSTRACT OF THE DISCLOSURE An adhesive strip with a hole has a metal disk adhered on one side. A pliable insulating disk with several holes lying within the boundary of the metal disk is held against it by means of adhesion of its imperforate margins to the strip. An electrical lead is connected to the metal disk through the hole in the strip. In use, the several holes of the pliable insulating disk are occupied by electrolyte paste. A breakable capsule of paste may be carried by the adhesive strip.
This invention relates to improvements in a self-adhering electrode for transferring electric signals to and from the body. The electrode is intended for use as an input or output terminal with electromedical diagnostic and therapeutic apparatus such as electrocardiographs, pacemakers, stimulators, impedance measuring devices and others.
It is among the objects of the invention to provide an electrode that is comfortable on the body, that has a low profile and alfords minimum conspicuousness and interference with the Wearers garments, that is easy to use, and that is inexpensive.
Other important objects of the invention are to provide an electrode that has low and stable conact impedance over its period of use so that spurious electric signals are not introduced into the measuring instrument.
Another object is to provide a body electrode with its own encapsulated supply of electrolyte for augmenting conductivity when the electrode is ready for use.
Achievement of the foregoing and specific objects will appear from time to time throughout the ensuing description of a preferred embodiment of the invention in conjunction with the drawing in which:
FIGURE 1 is a top plan view of the new electrode assembly;
FIGURE 2 is a sectional view taken on theline 22 in FIG. 1;
FIGURE 3 corresponds with a bottom view of the electrode assembly in FIGURE 1 and is an alternative embodiment in the sense that an electrolyte capsule has been added;
FIGURE 4 is a sectional view taken on the line 4-4 in FIG. 3; and
FIGURE 5 is an exploded view of the new electrode assembly.
An embodiment of the new electrode ready for use is shown in FIGURES 1 and 2. It comprises an essentially circular piece of surgical tape that has a pinked or notched edge 11. The visible or top side oftape 10 is non-adhesive, but its bottom side has a permanent pressure-sensitive adhesive coating thereon.Tape 10 is prevented from sticking on its bottom side by a releasable backing strip that is temporarily adhered to the adhesive interface with the tape and that is divided into twoportions 12 and 13 which terminate intabs 14 and 15, respectively. Thesetabs 14 and 15 facilitate peeling off of thebacking strips 12 and 13 immediately prior to pressing the electrode assembly onto the body surface.Tabs 14 and 15 ordinarily lie flat against and in parallel with thesurgical tape part 10 when the electrode is in its original package. The longer tab covers the bottom of the electrode assembly in this condition.Tab 15 may have a semi-circular notch 15' in its edge with a slightly larger radius than aspacer 17 so that the tab will lie flat when folded against the tape.
In FIGURES 1, 2, and 5 it is seen thattape 10 has acentral hole 16 and that athin metal disk 17 is adhered to the bottom side of the tape in a position to cover the hole and extend beyond its diameter somewhat. Placed immediately undermetal disk 17, is a pliableinsulating spacer 18 that may be naturally porous but preferably has a plurality ofsmall holes 19. Becausespacer 18 is larger thandisk 17, the peripheral edge of the spacer is pressed against and adheres to the adhesive side ofsurgical tape 10 throughout theannular region 20 as may be seen best in FIGURE 2. Where thereference numeral 20 is applied in this view a small gap is shown, but it will be understood that the edge ofspacer 18 is actually in contact with the adhesive bottom side oftape 10 which it may readily do because it is pliable and themetal disk 17 is so thin.
Because ofcentral hole 16 insurgical tape 10, the top ofmetal disk 17 is exposed to enable making an external electrical connection with the electrode and thereby provide for running aninsulated lead wire 21 from the elec trode to an electrical instrument. At the top of FIGURE 5, one may see how thelead wire 21 is preassembled with aterminal 22 before attachment to the electrode.Terminal 22 has a tubular part'23 formed integrally with a pair of beveled laterally extendingwings 24. The interior oftubular part 23 may be tinned, but if not, it should be clean. The bared and tinnedstrands 25 oflead 21 are then admitted into the tubular part and the latter is crimped to seize the Wire strands. At the same time,wings 24 are caused to Wrap around with the beveled ends overlapping and grip the insulation onwire 21 so as to relieve the stress on the wire strands.
The flattenedtubular part 23 ofwire terminal 22 is spot welded to themetal disk 17 as can be seen best in FIG-URE 2. Of course, spot welding is done during the assembly process prior to positioning thepliable insulating spacer 18. Incidental to spot welding, the tinned wire ends are caused to be soldered to the interior of thetubular part 23. Resulting from these attachment procedures is a connection that is free of electrical noise or impedance variations when varying stresses are placed on the electrode by movement of the patient or the lead wires.
Use of the perforatedinsulating spacer 18 is an impor. tant feature of the present invention. This spacer may be made of natural or artificial gum rubber or other pliable insulating material such as vinyl and in an actual embodiment has been made three-fourths of an inch in diameter and of an inch thick. As indicated earlier, the spacer must be a little larger than themetal disk 17 which may be 0.005 inch thick and /2 inch in diameter.Holes 19 in the spacer may be about 0.005 inch in diameter. The holes should lie within the border of the metal disk when thedisk 17 and spacer are superimposed.
Before the electrode is put into service, an electrically conductive paste is applied to the bottom side ofspacer 18 as it appears in FIGURE 2. This is usually done after thebacking strips 12 and 13 are peeled olf. The paste may be spread with the finger to thereby fill theholes 19 and establish a plurality of conductive paths through thespacer 18 to themetal disk 17. In reality, there are as many parallel conductive paths constituted by as many cylindrical columns of paste as there are holes in thespacer 18. Reasonable amounts of flexing of the electrodes will not adversely affect the electrical continuity of the columns where they junction with the surface ofmetal disk 17 because these portions of electrolyte are trapped. A similar efiect is obtained where the columns contact the patients skin. Moreover, the length of the columns always remain the same so as to conform to any contour variations in the skin that might result from body move- \3 rnent. It is believed that the constancy of these conductive paths contribute significantly to the stable and low contact impedance of the electrode and the surprising absence of electrical noise or signal artefacts over extended periods of use.
FIGURE 3 shows what is essentially a bottom view of the electrode in FIGURE 2 withbacking strips 13 and 14 removed and with a new feature added. The new feature resides in adhering a sealedcapsule 30 of electrolyte jell onto the adhesive side of tape 11. Capsule 30 is preferably made of a thin plastic film. The capsule is sealed all around and particularly is sealed on aline 31 where it is also notched at 32 to facilitate tearing off theend 33 beyond the notch. Whenend 33 is torn oil, the capsule is open and may be squeezed to cause theconductive electrolyte jell 34, as seen in FIGURE 4, to exude ontospacer 18. The electrolyte may be squeezed out by applying the electrode to the skin and pressing from the outside. This traps theempty capsule 30 under theadhesive tape 10. The user may, of course, peel ofi the electrolyte capsule and then spread the electrolyte on the spacer before applying the electrode to the skin, if desired.
Capsule 30 has been made of a tube of polyethylene film about 0.002 inch thick and heat-sealed at its ends. It may also be made of other plastics or metal foil. The tearingnotch 32 is not imperative. Experience has shown that about 0.4 cubic centimeter of electrolyte is an appropriate amount for an electrode assembly of the size herein described.Electrolyte 34 is preferably viscous and may be one of the commercially available sodium chloride containing mixtures known as electrode paste. When the new electrode does not have the capsule attached, the paste may be dispensed from a tube in the conventional way. This, however, sacrifices the advantage of having an individualized and proper quantity of electrode paste conveniently available.
Another alternative, not shown, is to shape the electrolyte capsule like a toroid or doughnut and adhere it on tape so as to encircle thespacer 18. The capsule may also be coated with pressure sensitive adhesive on its outside surface, but this is not absolutely necessary. With this construction, thetape 10 may be applied to the body and the electrode pressed to break the capsule and cause the paste to exude onto thespacer 18 to fill itsholes 19. Because the circular capsule may have small cross-section, it does not occupy very much of the adhesive area oftape 10 and hence, it does not diminish the holding power of the electrode. The toroidally shaped capsule may also be adhered directly to thespacer 18 and made with an inside opening that encompasses theholes 19 and an outside diameter that is about the same as that of the spacer,
Before applying the above described electrode to the body, it is desirable to prepare the skin by removing dead skin cells and natural body 'oils. This involves rubbing the skin surface with a fine abrasive pad after which the surface should be rubbed three or four times with different alcohol-soaked pads and air dried. The electrode may then be pressed on.
Although the new electrode has been described in con- A siderable detail, it is to be understood that such description is intended to be illustrative rather than limiting, for the invention may be variously embodied and is to be limited in scope only by interpreting the claims which follow.
It is claimed:
1. Anelectrode for self-adhering attachment to a body comprising:
(a) a flexible tape means having a pressure sensitive adhesive on one surface thereof and having a hole through it,
(b) a thin metal disk adhered to the adhesive surface to cover the hole,
(c) an electric terminal fastened to the disk through the hole,
((1) a pliable insulating member having a plurality of holes lying within the boundary of the disk,
(e) the insulating member being in face-to-face contact with the metal disk and being of larger size than the disk to extend beyond it and adhere at its boundary to the adhesive surface,
(f) the said holes being adapted to receive electrolyte exclusively and thereby create a plurality of parallel conductive paths solely by way of the electrolyte between metal disk and the body surface when the electrode is adhesively attached to the body.
2. The invention set forth in claim 1 including:
(a) a capsule of electrolyte adhered to the electrode,
(b) the said capsule being adapted to open in the region of the insulating member and to exude electrolyte thereon and to fill the holes when the capsule is pressed.
References Cited UNITED STATES PATENTS 3,085,577 4/1963 Berman et al. 1284l8 3,151,619 10/1964 Sullivan 128417 3,170,459 2/ 1965 Phipps et al 128-206 3,207,161 9/1965 Dietz l28404 3,295,515 l/1967 Kahn 128-2.06
RICHARD A. GAUDET, Primary Examiner.
W. E. KAMM, Assistcmt Examiner.

Claims (1)

1. AN ELECTRODE FOR SELF-ADHERING ATTACHMENT TO A BODY COMPRISING:
US437477A1965-03-051965-03-05Body signal pickup electrodeExpired - LifetimeUS3340868A (en)

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Application NumberPriority DateFiling DateTitle
US437477AUS3340868A (en)1965-03-051965-03-05Body signal pickup electrode
GB8217/66AGB1118644A (en)1965-03-051966-02-24Improvements in body electrode assemblies
FR52088AFR1470698A (en)1965-03-051966-03-04 electrode intended to be applied to the body

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US437477AUS3340868A (en)1965-03-051965-03-05Body signal pickup electrode

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Cited By (55)

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US3464404A (en)*1966-06-171969-09-02Univ Johns HopkinsBio-medical instrumentation electrode
US3468303A (en)*1967-01-051969-09-23NasaPlated electrodes
US3474775A (en)*1967-02-271969-10-28William R JohnsonElectrode assembly for skin contact
US3487827A (en)*1968-01-241970-01-06Physio Control CorpElectrode for electromedical equipment
US3498291A (en)*1966-02-101970-03-03Lockheed Aircraft CorpBody signal sensing electrode apparatus
US3696807A (en)*1970-02-131972-10-10Mdm CorpMedical electrode with relatively rigid electrolyte cup
US3713435A (en)*1972-06-051973-01-30Ndm CorpPickup electrode with rigid electrolyte cup
US3774592A (en)*1971-12-161973-11-27Xerox CorpMethod for providing an improved body electrode electrical connection
US3828766A (en)*1972-08-141974-08-13Jet Medical Prod IncDisposable medical electrode
US3868946A (en)*1973-07-131975-03-04James S HurleyMedical electrode
US3998215A (en)*1968-12-181976-12-21Minnesota Mining And Manufacturing CompanyBio-medical electrode conductive gel pads
US4029086A (en)*1975-08-111977-06-14Consolidated Medical Equipment, Inc.Electrode arrangement
US4058127A (en)*1973-11-151977-11-15Gilbert BuchalterMethod of applying viscous fluid to a surface
US4067321A (en)*1976-06-291978-01-10Governor Of Tokyo MetropolisElectrodes for electroencephalographic examinations
US4079731A (en)*1975-07-031978-03-21Cardiolink Electrodes, Ltd.Medical electrodes
US4126126A (en)*1976-07-271978-11-21C. R. Bard, Inc.Non-metallic pregelled electrode
US4381789A (en)*1979-11-201983-05-03Siemens AktiengesellschaftElectrode system
US4526176A (en)*1981-12-221985-07-02Frantz Medical Development Ltd.Long-life biomedical application device, particularly electrode, and method of transferring electrical current
US4583547A (en)*1983-06-011986-04-22Bio-Stimu Trend Corp.Garment apparatus for delivering or receiving electric impulses
US4721111A (en)*1984-06-081988-01-26Sciotronic LimitedMedical electrode and method of making the electrode
US4805600A (en)*1985-12-181989-02-21Dornier Medizintechnik GmbhCoupling the body of a patient to a membrane
US5012810A (en)*1988-09-221991-05-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
US5078139A (en)*1988-09-221992-01-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
US5078138A (en)*1988-09-221992-01-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction having a non-woven material
US5133355A (en)*1988-09-221992-07-28Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
WO1996001077A1 (en)*1994-07-011996-01-18Humanteknik AbAn interface element for a biomedical electrode
US5928141A (en)*1995-08-011999-07-27Castelli; ArrigoElectrode for detecting an electric biological signal, in particular an electrocardiographic signal
US6345196B1 (en)1998-12-302002-02-05Arrigo CastelliElectrode for detecting an electric biological signal, in particular an electrocardiographic signal, and electrocardiograph employing such an electrode
US20060111624A1 (en)*2002-12-192006-05-25Koninklijke Philips Electronics N.V.Electrode assembly and a system with impedance control
US7658196B2 (en)2005-02-242010-02-09Ethicon Endo-Surgery, Inc.System and method for determining implanted device orientation
US7775966B2 (en)2005-02-242010-08-17Ethicon Endo-Surgery, Inc.Non-invasive pressure measurement in a fluid adjustable restrictive device
US7775215B2 (en)2005-02-242010-08-17Ethicon Endo-Surgery, Inc.System and method for determining implanted device positioning and obtaining pressure data
US7844342B2 (en)2008-02-072010-11-30Ethicon Endo-Surgery, Inc.Powering implantable restriction systems using light
US7927270B2 (en)2005-02-242011-04-19Ethicon Endo-Surgery, Inc.External mechanical pressure sensor for gastric band pressure measurements
US8016744B2 (en)2005-02-242011-09-13Ethicon Endo-Surgery, Inc.External pressure-based gastric band adjustment system and method
US8016745B2 (en)2005-02-242011-09-13Ethicon Endo-Surgery, Inc.Monitoring of a food intake restriction device
US8034065B2 (en)2008-02-262011-10-11Ethicon Endo-Surgery, Inc.Controlling pressure in adjustable restriction devices
US8057492B2 (en)2008-02-122011-11-15Ethicon Endo-Surgery, Inc.Automatically adjusting band system with MEMS pump
US8066629B2 (en)2005-02-242011-11-29Ethicon Endo-Surgery, Inc.Apparatus for adjustment and sensing of gastric band pressure
US8100870B2 (en)2007-12-142012-01-24Ethicon Endo-Surgery, Inc.Adjustable height gastric restriction devices and methods
US8114345B2 (en)2008-02-082012-02-14Ethicon Endo-Surgery, Inc.System and method of sterilizing an implantable medical device
US8142452B2 (en)2007-12-272012-03-27Ethicon Endo-Surgery, Inc.Controlling pressure in adjustable restriction devices
US8152710B2 (en)2006-04-062012-04-10Ethicon Endo-Surgery, Inc.Physiological parameter analysis for an implantable restriction device and a data logger
US8187163B2 (en)2007-12-102012-05-29Ethicon Endo-Surgery, Inc.Methods for implanting a gastric restriction device
US8187162B2 (en)2008-03-062012-05-29Ethicon Endo-Surgery, Inc.Reorientation port
US8192350B2 (en)2008-01-282012-06-05Ethicon Endo-Surgery, Inc.Methods and devices for measuring impedance in a gastric restriction system
US8221439B2 (en)2008-02-072012-07-17Ethicon Endo-Surgery, Inc.Powering implantable restriction systems using kinetic motion
US8233995B2 (en)2008-03-062012-07-31Ethicon Endo-Surgery, Inc.System and method of aligning an implantable antenna
US8337389B2 (en)2008-01-282012-12-25Ethicon Endo-Surgery, Inc.Methods and devices for diagnosing performance of a gastric restriction system
US20130023748A1 (en)*2011-07-112013-01-24Nellcor Puritan Bennett LlcDevice with encapsulated gel
US8377079B2 (en)2007-12-272013-02-19Ethicon Endo-Surgery, Inc.Constant force mechanisms for regulating restriction devices
US8591395B2 (en)2008-01-282013-11-26Ethicon Endo-Surgery, Inc.Gastric restriction device data handling devices and methods
US8591532B2 (en)2008-02-122013-11-26Ethicon Endo-Sugery, Inc.Automatically adjusting band system
US8870742B2 (en)2006-04-062014-10-28Ethicon Endo-Surgery, Inc.GUI for an implantable restriction device and a data logger
US10092211B2 (en)2010-07-162018-10-09Swisstom AgElectrode sensor and use of electrode sensor as EIT electrode

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US4771783A (en)*1986-08-011988-09-20Minnesota Mining And Manufacturing CompanyFlat, conformable, biomedical electrode
US4899754A (en)*1986-10-031990-02-13Minnesota Mining And Manufacturing CompanyFlat, conformable, biomedical electrode allowing removal of electrical lead wire
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Cited By (58)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3498291A (en)*1966-02-101970-03-03Lockheed Aircraft CorpBody signal sensing electrode apparatus
US3464404A (en)*1966-06-171969-09-02Univ Johns HopkinsBio-medical instrumentation electrode
US3468303A (en)*1967-01-051969-09-23NasaPlated electrodes
US3474775A (en)*1967-02-271969-10-28William R JohnsonElectrode assembly for skin contact
US3487827A (en)*1968-01-241970-01-06Physio Control CorpElectrode for electromedical equipment
US3998215A (en)*1968-12-181976-12-21Minnesota Mining And Manufacturing CompanyBio-medical electrode conductive gel pads
US3696807A (en)*1970-02-131972-10-10Mdm CorpMedical electrode with relatively rigid electrolyte cup
US3774592A (en)*1971-12-161973-11-27Xerox CorpMethod for providing an improved body electrode electrical connection
US3713435A (en)*1972-06-051973-01-30Ndm CorpPickup electrode with rigid electrolyte cup
US3828766A (en)*1972-08-141974-08-13Jet Medical Prod IncDisposable medical electrode
US3868946A (en)*1973-07-131975-03-04James S HurleyMedical electrode
US4058127A (en)*1973-11-151977-11-15Gilbert BuchalterMethod of applying viscous fluid to a surface
US4079731A (en)*1975-07-031978-03-21Cardiolink Electrodes, Ltd.Medical electrodes
US4029086A (en)*1975-08-111977-06-14Consolidated Medical Equipment, Inc.Electrode arrangement
US4067321A (en)*1976-06-291978-01-10Governor Of Tokyo MetropolisElectrodes for electroencephalographic examinations
US4126126A (en)*1976-07-271978-11-21C. R. Bard, Inc.Non-metallic pregelled electrode
US4381789A (en)*1979-11-201983-05-03Siemens AktiengesellschaftElectrode system
US4526176A (en)*1981-12-221985-07-02Frantz Medical Development Ltd.Long-life biomedical application device, particularly electrode, and method of transferring electrical current
US4583547A (en)*1983-06-011986-04-22Bio-Stimu Trend Corp.Garment apparatus for delivering or receiving electric impulses
US4721111A (en)*1984-06-081988-01-26Sciotronic LimitedMedical electrode and method of making the electrode
US4805600A (en)*1985-12-181989-02-21Dornier Medizintechnik GmbhCoupling the body of a patient to a membrane
US5012810A (en)*1988-09-221991-05-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
US5078139A (en)*1988-09-221992-01-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
US5078138A (en)*1988-09-221992-01-07Minnesota Mining And Manufacturing CompanyBiomedical electrode construction having a non-woven material
US5133355A (en)*1988-09-221992-07-28Minnesota Mining And Manufacturing CompanyBiomedical electrode construction
WO1996001077A1 (en)*1994-07-011996-01-18Humanteknik AbAn interface element for a biomedical electrode
US5891028A (en)*1994-07-011999-04-06Humanteknik AbInterface element for a biomedical electrode
US5928141A (en)*1995-08-011999-07-27Castelli; ArrigoElectrode for detecting an electric biological signal, in particular an electrocardiographic signal
US6345196B1 (en)1998-12-302002-02-05Arrigo CastelliElectrode for detecting an electric biological signal, in particular an electrocardiographic signal, and electrocardiograph employing such an electrode
US20060111624A1 (en)*2002-12-192006-05-25Koninklijke Philips Electronics N.V.Electrode assembly and a system with impedance control
US7424319B2 (en)*2002-12-192008-09-09Koninklijke Philips Electronics N.V.Electrode assembly and a system with impedance control
US7927270B2 (en)2005-02-242011-04-19Ethicon Endo-Surgery, Inc.External mechanical pressure sensor for gastric band pressure measurements
US7775966B2 (en)2005-02-242010-08-17Ethicon Endo-Surgery, Inc.Non-invasive pressure measurement in a fluid adjustable restrictive device
US7775215B2 (en)2005-02-242010-08-17Ethicon Endo-Surgery, Inc.System and method for determining implanted device positioning and obtaining pressure data
US7658196B2 (en)2005-02-242010-02-09Ethicon Endo-Surgery, Inc.System and method for determining implanted device orientation
US8016744B2 (en)2005-02-242011-09-13Ethicon Endo-Surgery, Inc.External pressure-based gastric band adjustment system and method
US8016745B2 (en)2005-02-242011-09-13Ethicon Endo-Surgery, Inc.Monitoring of a food intake restriction device
US8066629B2 (en)2005-02-242011-11-29Ethicon Endo-Surgery, Inc.Apparatus for adjustment and sensing of gastric band pressure
US8870742B2 (en)2006-04-062014-10-28Ethicon Endo-Surgery, Inc.GUI for an implantable restriction device and a data logger
US8152710B2 (en)2006-04-062012-04-10Ethicon Endo-Surgery, Inc.Physiological parameter analysis for an implantable restriction device and a data logger
US8187163B2 (en)2007-12-102012-05-29Ethicon Endo-Surgery, Inc.Methods for implanting a gastric restriction device
US8100870B2 (en)2007-12-142012-01-24Ethicon Endo-Surgery, Inc.Adjustable height gastric restriction devices and methods
US8142452B2 (en)2007-12-272012-03-27Ethicon Endo-Surgery, Inc.Controlling pressure in adjustable restriction devices
US8377079B2 (en)2007-12-272013-02-19Ethicon Endo-Surgery, Inc.Constant force mechanisms for regulating restriction devices
US8591395B2 (en)2008-01-282013-11-26Ethicon Endo-Surgery, Inc.Gastric restriction device data handling devices and methods
US8192350B2 (en)2008-01-282012-06-05Ethicon Endo-Surgery, Inc.Methods and devices for measuring impedance in a gastric restriction system
US8337389B2 (en)2008-01-282012-12-25Ethicon Endo-Surgery, Inc.Methods and devices for diagnosing performance of a gastric restriction system
US8221439B2 (en)2008-02-072012-07-17Ethicon Endo-Surgery, Inc.Powering implantable restriction systems using kinetic motion
US7844342B2 (en)2008-02-072010-11-30Ethicon Endo-Surgery, Inc.Powering implantable restriction systems using light
US8114345B2 (en)2008-02-082012-02-14Ethicon Endo-Surgery, Inc.System and method of sterilizing an implantable medical device
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FR1470698A (en)1967-02-24
GB1118644A (en)1968-07-03

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Free format text:ASSIGNMENT OF ASSIGNORS INTEREST.;ASSIGNOR:GENERAL ELECTRIC COMPANY;REEL/FRAME:003968/0861

Effective date:19820401


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